/*- * Copyright (c) 2003-2007 Tim Kientzle * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR(S) ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR(S) BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "test.h" __FBSDID("$FreeBSD$"); /* * This was inspired by an ISO fuzz tester written by Michal Zalewski * and posted to the "vulnwatch" mailing list on March 17, 2005: * http://seclists.org/vulnwatch/2005/q1/0088.html * * This test simply reads each archive image into memory, pokes * random values into it and runs it through libarchive. It tries * to damage about 1% of each file and repeats the exercise 100 times * with each file. * * Unlike most other tests, this test does not verify libarchive's * responses other than to ensure that libarchive doesn't crash. * * Due to the deliberately random nature of this test, it may be hard * to reproduce failures. Because this test deliberately attempts to * induce crashes, there's little that can be done in the way of * post-failure diagnostics. */ /* Because this works for any archive, we can just re-use the archives * developed for other tests. */ struct files { int uncompress; /* If 1, decompress the file before fuzzing. */ const char **names; }; static void test_fuzz(const struct files *filesets) { const void *blk; size_t blk_size; int64_t blk_offset; int n; const char *skip_fuzz_tests; skip_fuzz_tests = getenv("SKIP_TEST_FUZZ"); if (skip_fuzz_tests != NULL) { skipping("Skipping fuzz tests due to SKIP_TEST_FUZZ " "environment variable"); return; } for (n = 0; filesets[n].names != NULL; ++n) { const size_t buffsize = 30000000; struct archive_entry *ae; struct archive *a; char *rawimage = NULL, *image = NULL, *tmp = NULL; size_t size = 0, oldsize = 0; int i, q; extract_reference_files(filesets[n].names); if (filesets[n].uncompress) { int r; /* Use format_raw to decompress the data. */ assert((a = archive_read_new()) != NULL); assertEqualIntA(a, ARCHIVE_OK, archive_read_support_filter_all(a)); assertEqualIntA(a, ARCHIVE_OK, archive_read_support_format_raw(a)); r = archive_read_open_filenames(a, filesets[n].names, 16384); if (r != ARCHIVE_OK) { archive_read_free(a); if (filesets[n].names[0] == NULL || filesets[n].names[1] == NULL) { skipping("Cannot uncompress fileset"); } else { skipping("Cannot uncompress %s", filesets[n].names[0]); } continue; } assertEqualIntA(a, ARCHIVE_OK, archive_read_next_header(a, &ae)); rawimage = malloc(buffsize); size = archive_read_data(a, rawimage, buffsize); assertEqualIntA(a, ARCHIVE_EOF, archive_read_next_header(a, &ae)); assertEqualInt(ARCHIVE_OK, archive_read_free(a)); assert(size > 0); if (filesets[n].names[0] == NULL || filesets[n].names[1] == NULL) { failure("Internal buffer is not big enough for " "uncompressed test files"); } else { failure("Internal buffer is not big enough for " "uncompressed test file: %s", filesets[n].names[0]); } if (!assert(size < buffsize)) { free(rawimage); rawimage = NULL; continue; } } else { for (i = 0; filesets[n].names[i] != NULL; ++i) { char *newraw; tmp = slurpfile(&size, "%s", filesets[n].names[i]); newraw = realloc(rawimage, oldsize + size); if (!assert(newraw != NULL)) { free(rawimage); rawimage = NULL; free(tmp); continue; } rawimage = newraw; memcpy(rawimage + oldsize, tmp, size); oldsize += size; size = oldsize; free(tmp); } } if (size == 0) { free(rawimage); rawimage = NULL; continue; } image = malloc(size); assert(image != NULL); if (image == NULL) { free(rawimage); rawimage = NULL; return; } assert(rawimage != NULL); srand((unsigned)time(NULL)); for (i = 0; i < 1000; ++i) { FILE *f; int j, numbytes, trycnt; /* Fuzz < 1% of the bytes in the archive. */ memcpy(image, rawimage, size); q = (int)size / 100; if (q < 4) q = 4; numbytes = (int)(rand() % q); for (j = 0; j < numbytes; ++j) image[rand() % size] = (char)rand(); /* Save the messed-up image to a file. * If we crash, that file will be useful. */ for (trycnt = 0; trycnt < 3; trycnt++) { f = fopen("after.test.failure.send.this.file." "to.libarchive.maintainers.with.system.details", "wb"); if (f != NULL) break; #if defined(_WIN32) && !defined(__CYGWIN__) /* * Sometimes previous close operation does not completely * end at this time. So we should take a wait while * the operation running. */ Sleep(100); #endif } assert(f != NULL); assertEqualInt((size_t)size, fwrite(image, 1, (size_t)size, f)); fclose(f); // Try to read all headers and bodies. assert((a = archive_read_new()) != NULL); assertEqualIntA(a, ARCHIVE_OK, archive_read_support_filter_all(a)); assertEqualIntA(a, ARCHIVE_OK, archive_read_support_format_all(a)); if (0 == archive_read_open_memory(a, image, size)) { while(0 == archive_read_next_header(a, &ae)) { while (0 == archive_read_data_block(a, &blk, &blk_size, &blk_offset)) continue; } archive_read_close(a); } archive_read_free(a); // Just list headers, skip bodies. assert((a = archive_read_new()) != NULL); assertEqualIntA(a, ARCHIVE_OK, archive_read_support_filter_all(a)); assertEqualIntA(a, ARCHIVE_OK, archive_read_support_format_all(a)); if (0 == archive_read_open_memory(a, image, size)) { while(0 == archive_read_next_header(a, &ae)) { } archive_read_close(a); } archive_read_free(a); } free(image); free(rawimage); } } DEFINE_TEST(test_fuzz_ar) { static const char *fileset1[] = { "test_read_format_ar.ar", NULL }; static const struct files filesets[] = { {0, fileset1}, {1, NULL} }; test_fuzz(filesets); } DEFINE_TEST(test_fuzz_cab) { static const char *fileset1[] = { "test_fuzz.cab", NULL }; static const struct files filesets[] = { {0, fileset1}, {1, NULL} }; test_fuzz(filesets); } DEFINE_TEST(test_fuzz_cpio) { static const char *fileset1[] = { "test_read_format_cpio_bin_be.cpio", NULL }; static const char *fileset2[] = { "test_read_format_cpio_bin_le.cpio", NULL }; static const char *fileset3[] = { /* Test RPM unwrapper */ "test_read_format_cpio_svr4_gzip_rpm.rpm", NULL }; static const struct files filesets[] = { {0, fileset1}, {0, fileset2}, {0, fileset3}, {1, NULL} }; test_fuzz(filesets); } DEFINE_TEST(test_fuzz_iso9660) { static const char *fileset1[] = { "test_fuzz_1.iso.Z", NULL }; static const struct files filesets[] = { {0, fileset1}, /* Exercise compress decompressor. */ {1, fileset1}, {1, NULL} }; test_fuzz(filesets); } DEFINE_TEST(test_fuzz_lzh) { static const char *fileset1[] = { "test_fuzz.lzh", NULL }; static const struct files filesets[] = { {0, fileset1}, {1, NULL} }; test_fuzz(filesets); } DEFINE_TEST(test_fuzz_mtree) { static const char *fileset1[] = { "test_read_format_mtree.mtree", NULL }; static const struct files filesets[] = { {0, fileset1}, {1, NULL} }; test_fuzz(filesets); } DEFINE_TEST(test_fuzz_rar) { static const char *fileset1[] = { /* Uncompressed RAR test */ "test_read_format_rar.rar", NULL }; static const char *fileset2[] = { /* RAR file with binary data */ "test_read_format_rar_binary_data.rar", NULL }; static const char *fileset3[] = { /* Best Compressed RAR test */ "test_read_format_rar_compress_best.rar", NULL }; static const char *fileset4[] = { /* Normal Compressed RAR test */ "test_read_format_rar_compress_normal.rar", NULL }; static const char *fileset5[] = { /* Normal Compressed Multi LZSS blocks RAR test */ "test_read_format_rar_multi_lzss_blocks.rar", NULL }; static const char *fileset6[] = { /* RAR with no EOF header */ "test_read_format_rar_noeof.rar", NULL }; static const char *fileset7[] = { /* Best Compressed RAR file with both PPMd and LZSS blocks */ "test_read_format_rar_ppmd_lzss_conversion.rar", NULL }; static const char *fileset8[] = { /* RAR with subblocks */ "test_read_format_rar_subblock.rar", NULL }; static const char *fileset9[] = { /* RAR with Unicode filenames */ "test_read_format_rar_unicode.rar", NULL }; static const char *fileset10[] = { "test_read_format_rar_multivolume.part0001.rar", "test_read_format_rar_multivolume.part0002.rar", "test_read_format_rar_multivolume.part0003.rar", "test_read_format_rar_multivolume.part0004.rar", NULL }; static const struct files filesets[] = { {0, fileset1}, {0, fileset2}, {0, fileset3}, {0, fileset4}, {0, fileset5}, {0, fileset6}, {0, fileset7}, {0, fileset8}, {0, fileset9}, {0, fileset10}, {1, NULL} }; test_fuzz(filesets); } DEFINE_TEST(test_fuzz_tar) { static const char *fileset1[] = { "test_compat_bzip2_1.tbz", NULL }; static const char *fileset2[] = { "test_compat_gtar_1.tar", NULL }; static const char *fileset3[] = { "test_compat_gzip_1.tgz", NULL }; static const char *fileset4[] = { "test_compat_gzip_2.tgz", NULL }; static const char *fileset5[] = { "test_compat_tar_hardlink_1.tar", NULL }; static const char *fileset6[] = { "test_compat_xz_1.txz", NULL }; static const char *fileset7[] = { "test_read_format_gtar_sparse_1_17_posix10_modified.tar", NULL }; static const char *fileset8[] = { "test_read_format_tar_empty_filename.tar", NULL }; #if HAVE_LIBLZO2 && HAVE_LZO_LZO1X_H && HAVE_LZO_LZOCONF_H static const char *fileset9[] = { "test_compat_lzop_1.tar.lzo", NULL }; #endif #if HAVE_ZSTD_H && HAVE_LIBZSTD static const char *fileset10[] = { "test_compat_zstd_1.tar.zst", NULL }; #endif static const struct files filesets[] = { {0, fileset1}, /* Exercise bzip2 decompressor. */ {1, fileset1}, {0, fileset2}, {0, fileset3}, /* Exercise gzip decompressor. */ {0, fileset4}, /* Exercise gzip decompressor. */ {0, fileset5}, {0, fileset6}, /* Exercise xz decompressor. */ {0, fileset7}, {0, fileset8}, #if HAVE_LIBLZO2 && HAVE_LZO_LZO1X_H && HAVE_LZO_LZOCONF_H {0, fileset9}, /* Exercise lzo decompressor. */ #endif #if HAVE_ZSTD_H && HAVE_LIBZSTD {0, fileset10}, /* Excercise zstd decompressor. */ #endif {1, NULL} }; test_fuzz(filesets); } DEFINE_TEST(test_fuzz_zip) { static const char *fileset1[] = { "test_compat_zip_1.zip", NULL }; static const char *fileset2[] = { "test_compat_zip_2.zip", NULL }; static const char *fileset3[] = { "test_compat_zip_3.zip", NULL }; static const char *fileset4[] = { "test_compat_zip_4.zip", NULL }; static const char *fileset5[] = { "test_compat_zip_5.zip", NULL }; static const char *fileset6[] = { "test_compat_zip_6.zip", NULL }; static const char *fileset7[] = { "test_read_format_zip.zip", NULL }; static const char *fileset8[] = { "test_read_format_zip_comment_stored_1.zip", NULL }; static const char *fileset9[] = { "test_read_format_zip_comment_stored_2.zip", NULL }; static const char *fileset10[] = { "test_read_format_zip_encryption_data.zip", NULL }; static const char *fileset11[] = { "test_read_format_zip_encryption_header.zip", NULL }; static const char *fileset12[] = { "test_read_format_zip_encryption_partially.zip", NULL }; static const char *fileset13[] = { "test_read_format_zip_filename_cp866.zip", NULL }; static const char *fileset14[] = { "test_read_format_zip_filename_cp932.zip", NULL }; static const char *fileset15[] = { "test_read_format_zip_filename_koi8r.zip", NULL }; static const char *fileset16[] = { "test_read_format_zip_filename_utf8_jp.zip", NULL }; static const char *fileset17[] = { "test_read_format_zip_filename_utf8_ru.zip", NULL }; static const char *fileset18[] = { "test_read_format_zip_filename_utf8_ru2.zip", NULL }; static const char *fileset19[] = { "test_read_format_zip_length_at_end.zip", NULL }; static const char *fileset20[] = { "test_read_format_zip_mac_metadata.zip", NULL }; static const char *fileset21[] = { "test_read_format_zip_malformed1.zip", NULL }; static const char *fileset22[] = { "test_read_format_zip_msdos.zip", NULL }; static const char *fileset23[] = { "test_read_format_zip_nested.zip", NULL }; static const char *fileset24[] = { "test_read_format_zip_nofiletype.zip", NULL }; static const char *fileset25[] = { "test_read_format_zip_padded1.zip", NULL }; static const char *fileset26[] = { "test_read_format_zip_padded2.zip", NULL }; static const char *fileset27[] = { "test_read_format_zip_padded3.zip", NULL }; static const char *fileset28[] = { "test_read_format_zip_symlink.zip", NULL }; static const char *fileset29[] = { "test_read_format_zip_traditional_encryption_data.zip", NULL }; static const char *fileset30[] = { "test_read_format_zip_ux.zip", NULL }; static const char *fileset31[] = { "test_read_format_zip_winzip_aes128.zip", NULL }; static const char *fileset32[] = { "test_read_format_zip_winzip_aes256.zip", NULL }; static const char *fileset33[] = { "test_read_format_zip_winzip_aes256_large.zip", NULL }; static const char *fileset34[] = { "test_read_format_zip_winzip_aes256_stored.zip", NULL }; static const char *fileset35[] = { "test_read_format_zip_zip64a.zip", NULL }; static const char *fileset36[] = { "test_read_format_zip_zip64b.zip", NULL }; static const struct files filesets[] = { {0, fileset1}, {0, fileset2}, {0, fileset3}, {0, fileset4}, {0, fileset5}, {0, fileset6}, {0, fileset7}, {0, fileset8}, {0, fileset9}, {0, fileset10}, {0, fileset11}, {0, fileset12}, {0, fileset13}, {0, fileset14}, {0, fileset15}, {0, fileset16}, {0, fileset17}, {0, fileset18}, {0, fileset19}, {0, fileset20}, {0, fileset21}, {0, fileset22}, {0, fileset23}, {0, fileset24}, {0, fileset25}, {0, fileset26}, {0, fileset27}, {0, fileset28}, {0, fileset29}, {0, fileset30}, {0, fileset31}, {0, fileset32}, {0, fileset33}, {0, fileset34}, {0, fileset35}, {0, fileset36}, {1, NULL} }; test_fuzz(filesets); }